Communication devices and methods for operating a communication device

ABSTRACT

A communication device may include a message generator configured to generate a message in accordance with a command set to use a communication service provided by a communication session setup protocol; and a modem circuit coupled to the message generator and configured to operate in accordance with the message generated by the message generator; wherein the message generator is configured to generate the message comprising a command to at least one of control or establish an Internet Protocol Multimedia Subsystem service.

CROSS-REFERENCE TO RELATED APPLICATION

This present application is a continuation of U.S. application Ser. No. 13/803,023, filed Mar. 14, 2013, entitled “COMMUNICATION DEVICES AND METHODS FOR OPERATING A COMMUNICATION DEVICE,” which claims priority to U.S. Application No. 61/657,063, which was filed Jun. 8, 2012, entitled “COMMUNICATION DEVICES AND METHODS FOR OPERATING A COMMUNICATION DEVICE,” the entire disclosures of which are hereby incorporated by reference in their entireties for all purposes, except for those sections, if any, that are inconsistent with this specification.

TECHNICAL FIELD

Various aspects of the disclosure relate generally to communication devices and to methods for operating a communication device.

BACKGROUND

The so called Internet Protocol (IP) Multimedia Subsystem (IMS) provides communication services via the Internet Protocol and IMS communication service calls are usually controlled via the Session Initiation Protocol (SIP). Some IMS communication services can be identified by means of so called IMS Communication Service Identifiers (ICSIs). Moreover, so called mobile terminations (which illustratively include modem hardware including one or more transmitters and one or more receivers for inter device communications, also referred to as MT) can be controlled by a so called terminal equipment (which illustratively includes hardware configured to interact with an end user and which includes one or more application processors and means for user interaction, also referred to as TE) through so called AT commands. AT commands exist for controlling voice calls, supplementary communication services and short messaging services as non-IMS services. However, conventionally, an AT command can control only a single voice call. Currently new AT commands are being defined by the 3rd Generation Partnership Project (3GPP) standardization group for dialing Uniform Resource Identifiers (URIs) to be used by IMS services.

SUMMARY

A communication device may include a message generator configured to generate a message in accordance with a command set to use a communication service provided by a communication session setup protocol; and a modem circuit coupled to the message generator and configured to operate in accordance with the message generated by the message generator; wherein the message generator is configured to generate the message comprising a command to at least one of control or establish an Internet Protocol Multimedia Subsystem service.

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawings, like reference characters generally refer to the same parts throughout the different views. The drawings are not necessarily to scale, emphasis instead generally being placed upon illustrating the principles of the invention. In the following description, various embodiments of the invention are described with reference to the following drawings, in which:

FIG. 1 shows a communication device in accordance with various aspects of this disclosure;

FIG. 2 shows a communication network in accordance with various aspects of this disclosure;

FIG. 3 shows an implementation of the communication device of FIG. 1 in accordance with various aspects of this disclosure;

FIG. 4 shows a message flow diagram in accordance with various aspects of this disclosure;

FIG. 5 shows a message flow diagram in accordance with various aspects of this disclosure;

FIG. 6 shows a flow diagram illustrating a method for operating a communication device in accordance with various aspects of this disclosure; and

FIG. 7 shows a flow diagram illustrating a method for operating a communication device in accordance with various aspects of this disclosure.

DESCRIPTION

The following detailed description refers to the accompanying drawings that show, by way of illustration, specific details and embodiments in which the invention may be practiced.

The word “exemplary” is used herein to mean “serving as an example, instance, or illustration”. Any embodiment or design described herein as “exemplary” is not necessarily to be construed as preferred or advantageous over other embodiments or designs.

The word “over” used with regards to a deposited material formed “over” a side or surface, may be used herein to mean that the deposited material may be formed “directly on”, e.g. in direct contact with, the implied side or surface. The word “over” used with regards to a deposited material formed “over” a side or surface, may be used herein to mean that the deposited material may be formed “indirectly on” the implied side or surface with one or more additional layers being arranged between the implied side or surface and the deposited material.

In various aspects of this disclosure, a “circuit” may be understood as any kind of a logic implementing entity, which may be special purpose circuitry or a processor executing software stored in a memory, firmware, or any combination thereof. Thus, in various aspects of this disclosure, a “circuit” may be a hard-wired logic circuit or a programmable logic circuit such as a programmable processor, for example a microprocessor (for example a Complex Instruction Set Computer (CISC) processor or a Reduced Instruction Set Computer (RISC) processor). A “circuit” may also be a processor executing software, for example any kind of computer program, for example a computer program using a virtual machine code such as for example Java. Any other kind of implementation of the respective functions which will be described in more detail below may also be understood as a “circuit” in accordance with an alternative aspect of this disclosure.

Various aspects of this disclosure are provided for devices, and various aspects of this disclosure are provided for methods. It will be understood that basic properties of the devices also hold for the methods and vice versa. Therefore, for sake of brevity, duplicate description of such properties may be omitted.

It will be understood that any property described herein for a specific device may also hold for any device described herein. It will be understood that any property described herein for a specific method may also hold for any method described herein.

The term “protocol” is intended to include any piece of software, that is provided to implement part of any layer of the communication definition.

A memory used in various aspects of this disclosure may be a volatile memory, for example a DRAM (Dynamic Random Access Memory) or a non-volatile memory, for example a PROM (Programmable Read Only Memory), an EPROM (Erasable PROM), EEPROM (Electrically Erasable PROM), or a flash memory, for example, a floating gate memory, a charge trapping memory, an MRAM (Magnetoresistive Random Access Memory) or a PCRAM (Phase Change Random Access Memory).

It has been found out that the conventional AT commands suffer from several disadvantages, such as:

-   -   Existing AT commands cannot specify the type of IMS service to         be controlled.     -   Existing AT commands cannot specify media to be used by IMS         services.     -   Existing AT commands cannot specify media quality for IMS         services.     -   Existing AT commands cannot specify whether media data encoding         and media data decoding is to be done by MTs or by TEs.     -   Existing AT commands cannot be used to find out which IMS         services are supported by MTs.     -   Existing AT commands cannot be used to configure media support         for incoming calls.     -   Existing AT commands cannot be used to modify ongoing         communication sessions or communication calls.     -   Existing AT commands cannot be used to control multiple         instances of a particular communication service.     -   Existing AT commands cannot be used to control the media data of         an incoming call.

Various aspects of this disclosure introduce commands, e.g. AT commands, for controlling IMS services that are provided by a mobile termination, whereby the commands allow to specify whether media data are to be encoded and decoded inside or outside the mobile termination and whereby instances of an IMS service can be identified.

As will be described in more detail below, various aspects of this disclosure may provide one or more of the following effects:

-   -   The type of IMS service can be controlled.     -   Media to be used by IMS services can be specified.     -   Media quality for IMS services can be specified.     -   It can be specified whether media data encoding and decoding is         to be done by one or more MTs or by one or more TEs.     -   It can be determined which IMS services are supported by MTs.     -   Media support for incoming calls can be configured.     -   Ongoing communications can be modified.     -   Multiple instances of a particular service can be controlled.     -   Media of an incoming call can be controlled.     -   The syntax of utilized commands is linear and simple and         therefore easy to parse.

In this disclosure, a mobile termination may be understood as including modem hardware including one or more transmitters and one or more receivers for inter device communications and may be referred to as MT. The MT may be controlled by a so called terminal equipment, which may include hardware configured to interact with an end user and which may include one or more application processors and means for user interaction through so called AT commands. The terminal equipment may also be referred to as TE.

FIG. 1 shows a communication device 100 in accordance with various aspects of this disclosure. As shown in FIG. 1, the communication device 100 may include a message generator 102 configured to generate a message 108 in accordance with a command set for using a communication service provided by a communication session setup protocol, e.g. by the Session Initiation Protocol (SIP). Furthermore, the communication device 100 may include a modem circuit 104 coupled to the message generator 102, wherein the modem circuit may be configured to operate in accordance with the message 108 generated by the message generator 102. The modem circuit 104 may be coupled with the message generator 102 by means of one or more connections 106, such as one or more wireline connections and/or one or more wireless connections. By way of example, the one or more connections may include one or more connection lines such as one or more bus lines. The message generator 102 may be configured to generate the message 108 including a command to at least one of control or establish an Internet Protocol Multimedia Subsystem (IMS) service. IMS may be understood as a standardized Next Generation Networking (NGN) architecture for telecom operators that want to provide mobile and fixed Internet Protocol (IP) based multimedia services. By way of example, it may use a Voice-over-IP (VoIP) implementation based on a 3GPP standardized implementation of SIP, and runs over the standard Internet Protocol (IP). Existing phone systems (both packet-switched and circuit-switched) are supported. The IMS is not only providing new services, but all the services, current and future, that the Internet provides. IMS uses open standard IP protocols, defined by the IETF (Internet Engineering Task Force). Thus, a multimedia session between two IMS users, between an IMS user and a user on the Internet, and between two users on the Internet may be established using exactly the same protocol. Moreover, the interfaces for service developers may also be based on IP protocols. Thus, illustratively, the message 108 may be exchanged between the message generator 102 and the modem circuit 104 to control the modem circuit 104.

The communication device 100 may be a mobile radio communication device or a wireline communication device. Furthermore, the communication device 100 may be included in any electronic device which has the capability of communicating with the Internet to use IMS, such as e.g. a personal computer, a laptop, a workstation, a netbook computer, a smartphone, etc.

The message generator 102 may be configured to generate the message comprising an identifier to identify the Internet Protocol Multimedia Subsystem service or to identify an instance of the Internet Protocol Multimedia Subsystem service. Furthermore, the communication device may further include an application processor, wherein the message generator is configured to generate the message comprising information specifying whether media data is at least one of encoded or decoded by the application processor of the communication device. The communication device 100 may further include a terminal equipment including the application processor. The message generator 102 may be configured to generate the message including at least one of the following: information specifying a Uniform Resource Identifier; information specifying a modification of an established communication connection; information specifying a configuration of a communication service; or information controlling an incoming call. The message generator 102 may be configured to generate the message comprising information specifying a Uniform Resource Identifier and at least one of a communication service parameter or a communication call identifier. The communication service parameter may include an Internet Protocol Multimedia Subsystem Communication Service Identifier (ICSI). Furthermore, the message generator 102 may be configured to generate the message including a communication service parameter and a media data parameter to specify media data and media data properties for the Internet Protocol Multimedia Subsystem service. The media data parameter may include Session Description Protocol data. Moreover, the message generator is configured to generate the message in accordance with a modem command set. The message generator may be configured to generate the message in accordance with the AT command set. The communication session setup protocol may provide a communication service. The communication session setup protocol may be e.g. the Session Initiation Protocol. The modem circuit may further include one or more transmitter circuits and/or one or more receiver circuits. The modem circuit may be configured as a mobile termination.

In various aspects of this disclosure, a communication device may be provided. The communication device may include a message generator configured to generate a message in accordance with a command set provided for a communication within the communication device and to control a communication service provided for a communication with another communication device; and a modem circuit coupled to the message generator and configured to operate in accordance with the message generated by the message generator; wherein the message generator is configured to generate the message comprising a command to at least one of control or establish an Internet Protocol based communication service.

The message generator may be configured to generate the message including a command to control and/or establish an Internet Protocol based multimedia communication service. The message generator may be configured to generate the message including an identifier to identify the Internet Protocol based communication service or to identify an instance of the Internet Protocol based communication service. The communication device may further include an application processor, wherein the message generator may be configured to generate the message including information specifying whether media data is encoded and/or decoded by the application processor. The application processor may be located in a terminal equipment. The message generator may be configured to generate the message including at least one of the following: information specifying a Uniform Resource Identifier; information specifying a modification of an established communication connection; information specifying a configuration of a communication service; or information controlling an incoming call. The message generator may be configured to generate the message including information specifying a Uniform Resource Identifier and at least one of a communication service parameter or a communication call identifier. The communication service parameter may include an Internet Protocol Multimedia Subsystem Communication Service Identifier (ICSI). Furthermore, the message generator may be configured to generate the message including a communication service parameter and a media data parameter to specify media data and media data properties for the Internet Protocol based communication service. The media data parameter may include Session Description Protocol data. The message generator may further be configured to generate the message in accordance with a modem command set. The message generator may further be configured to generate the message in accordance with the AT command set. The communication session setup protocol may provide the communication service. The communication session setup protocol may be e.g. the Session Initiation Protocol. The modem circuit may further include at least one transmitter circuit and/or at least one receiver circuit. The modem circuit may be configured as a mobile termination.

FIG. 2 shows a communication network 200 in accordance with various aspects of this disclosure, which may include the communication device 100, the IMS 202, and one or more other communication devices 204, 206, 208. All the communication devices 100, 204, 206, 208 may be coupled to the IMS 202 to provide or use IMS services by means of one or more wireline connections and/or one or more wireless connections (e.g. via correspondingly provided base station(s) and communication components such as Call Session Control Functions (CSFC) (e.g. Proxy Call Session Control Functions (P-CSFC) and/or Serving Call Session Control Functions (S-CSFC) and/or Interrogating Call Session Control Functions (I-CSFC)). Furthermore, one or more media data servers 210 and/or one or more application servers 212 may be provided in the IMS 202. For a communication between the communication devices 100, 204, 206, 208 with the IMS 202 or via the IMS 202, the so called Session Initiation Protocol (SIP) may be used.

Exemplary communication service may include:

-   -   Multimedia communication, e.g. voice and/or video calls;     -   Internet games;     -   Distributed file sharing and shared processing of documents,         etc.

As will be described in more detail below, various aspects of this disclosure define commands for a mobile termination for dialing Uniform Resource Identifiers (URIs), modifying ongoing communication calls, configuring communication services and controlling incoming communication calls, whereby the commands allow to specify whether media data are to be encoded and decoded inside or outside e.g. the application processor, e.g. inside or outside the terminal equipment (e.g. TE) and whereby instances of an IMS service can be identified. Commands for dialing URIs may include one or more service parameters and one or more call-id parameters if a URI parameter is included. This may allow to specify IMS services to be set up.

Service parameters may include IMS Communication Service Identifier values (ICSI values) or other service indicators. ICSI values indicate the usage of services for which ICSI values exist. Furthermore, commands for dialing URIs may include one or more media data parameters if a service parameter is included. This may allow to specify media data and their properties to be used by IMS services to be set up. Media data parameters may include Session Description Protocol (SDP) media level sections or other media indicators and media qualities. SDP media level sections may indicate that the media data are to be encoded and decoded outside the MT, for example.

Commands for dialing URIs may include a particular action value to indicate that an ongoing communication service is to be modified.

Default media data properties may be specified for particular services by a special command.

Call-ids of set up communication calls may be indicated by command responses.

Media data and the call-id of an incoming communication call may also be indicated by a special command.

FIG. 3 shows an implementation 300 of the communication device 100 of FIG. 1 in accordance with various aspects of this disclosure. As shown in FIG. 3, the communication device 300 may be a mobile radio communication device such as a mobile phone and may be configured to communicate in accordance with one or more Cellular Wide Area radio communication technologies (which may include e.g. a Global System for Mobile Communications (GSM) radio communication technology, a General Packet Radio Service (GPRS) radio communication technology, an Enhanced Data Rates for GSM Evolution (EDGE) radio communication technology, and/or a Third Generation Partnership Project (3GPP) radio communication technology (e.g. UMTS (Universal Mobile Telecommunications System), FOMA (Freedom of Multimedia Access), 3GPP LTE (Long Term Evolution), 3GPP LTE Advance (Long Term Evolution Advance)), CDMA2000 (Code division multiple access 2000), CDPD (Cellular Digital Packet Data), Mobitex, 3G (Third Generation), CSD (Circuit Switched Data), HSCSD (High-Speed Circuit-Switched Data), UMTS (3G) (Universal Mobile Telecommunications System (Third Generation)), W-CDMA (UMTS) (Wideband Code Division Multiple Access (Universal Mobile Telecommunications System)), HSPA (High Speed Packet Access), HSDPA (High-Speed Downlink Packet Access), HSUPA (High-Speed Uplink Packet Access), HSPA+(High Speed Packet Access Plus), UMTS-TDD (Universal Mobile Telecommunications System—Time-Division Duplex), TD-CDMA (Time Division—Code Division Multiple Access), TD-CDMA (Time Division—Synchronous Code Division Multiple Access), 3GPP Rel. 8 (Pre-4G) (3rd Generation Partnership Project Release 8 (Pre-4th Generation)), UTRA (UMTS Terrestrial Radio Access), E-UTRA (Evolved UMTS Terrestrial Radio Access), LTE Advanced (4G) (Long Term Evolution Advanced (4th Generation)), cdmaOne (2G), CDMA2000 (3G) (Code division multiple access 2000 (Third generation)), EV-DO (Evolution-Data Optimized or Evolution-Data Only), AMPS (1G) (Advanced Mobile Phone System (1st Generation)), TACS/ETACS (Total Access Communication System/Extended Total Access Communication System), D-AMPS (2G) (Digital AMPS (2nd Generation)), PTT (Push-to-talk), MTS (Mobile Telephone System), IMTS (Improved Mobile Telephone System), AMTS (Advanced Mobile Telephone System), OLT (Norwegian for Offentlig Landmobil Telefoni, Public Land Mobile Telephony), MTD (Swedish abbreviation for Mobiltelefonisystem D, or Mobile telephony system D), Autotel/PALM (Public Automated Land Mobile), ARP (Finnish for Autoradiopuhelin, “car radio phone”), NMT (Nordic Mobile Telephony), Hicap (High capacity version of NTT (Nippon Telegraph and Telephone)), CDPD (Cellular Digital Packet Data), Mobitex, DataTAC, iDEN (Integrated Digital Enhanced Network), PDC (Personal Digital Cellular), CSD (Circuit Switched Data), PHS (Personal Handy-phone System), WiDEN (Wideband Integrated Digital Enhanced Network), iBurst, Unlicensed Mobile Access (UMA, also referred to as also referred to as 3GPP Generic Access Network, or GAN standard)).

A first user U1 is using his mobile phone T1 (terminal) 300 as one implementation of the communication device 100. The mobile phone 300 may include a mobile termination part MT1 302 and a terminal equipment part TE1 304. The mobile termination part MT1 302 may be configured to provide modem functionality and the terminal equipment part TE1 304 may be configured to provide application and user interface functionality. The mobile termination part MT1 302 and the terminal equipment part TE1 304 communicate via a terminal adapter TA1 306 through AT commands 308, for example.

FIG. 4 shows a message flow diagram 400 in accordance with various aspects of this disclosure. The message flow diagram 400 illustrates an MMTel communication call setup and modification. In this example, it is assumed that the first user U1 switches on his mobile phone T1 300 (block 402). During the phone's initialization process the terminal equipment part TE1 304 may generate and send the following first AT command 404 to the mobile termination part MT1 302:

-   -   +CDU=0.

The first AT command 404 requests information about supported URI schemes from the mobile termination part MT1 302.

The mobile termination part MT1 302 may generate a further message and may respond the following result 406:

-   -   +CDUT:“sip”, “3gpp-service.ims.icsi.mmtel”.

The result 406 informs the terminal equipment part TE1 304 that the mobile termination supports SIP URIs and that the MMTel communication service is supported for SIP URI usage.

Furthermore, it is assumed that the first user U1 has defined in mobile phone T1's 300 settings that MMTel calls should use only voice communications by default. Therefore, the terminal equipment part TE1 304 may generate and send another, e.g. a second AT command 408 to the mobile termination part MT1 302:

-   -   +CSMCU=“3gpp-service.ims.icsi.mmtel”,“voice,high-quality”.

This second AT command 408 may instruct the mobile termination part MT1 302 to set the default media for the MMTel service to high quality voice media. It may also indicate that the voice media encoding and decoding should be done by the mobile termination part MT1 302 itself.

After the mobile phone T1 300 has been initialized, it is assumed that the first user U1 requests to call his friend, a second user U2, via MMTel (block 410 in FIG. 4). The terminal equipment part TE1 304 may thus generate and send the following third AT command 412 to the mobile termination part MT1 302:

-   -   +CDU=1,“sip:bob@biloxy.com”,“3gpp-service.ims.icsi.mmtel”,0.

After having received the third AT command 412, the mobile termination part MT1 302 may then initiate an MMTel session with the second user U2's mobile phone T2 (not shown) by generating and sending e.g. a SIP INVITE request message to the second user U2's SIP address that has been provided with the third AT command 412. The SIP INVITE request message may include SDP for high quality voice media that the mobile termination part MT1 302 is capable of encoding and decoding.

After the communication call to the second user U2's communication device (e.g. mobile phone) has been set up, the mobile termination part MT1 302 may generate a response 414 to respond the following result to the terminal equipment part TE1 304:

-   -   +CDUC:“sip:bob@biloxy.com”, “3gpp-service.ims.icsi.mmtel”, 1234,         “voice,high-quality”.

The response 414 informs the terminal equipment part TE1 304 that the communication call is being identified by “1234” and high quality voice media has been set up with encoding and decoding provided by the mobile termination part MT1 302.

Furthermore, it is assumed that during the established communication call with his friend, e.g. the second user U2, the first user U1 may decide to add video to the communication call (block 416). The terminal equipment part TE1 304 may thus generate and send the following command as a fourth AT command 418 to the mobile termination part MT1 302:

-   -   +CDU=2,“sip:bob@biloxy.com”, “3gpp-service.ims.icsi.mmtel”,         1234, “voice,high-quality”, “m=video 49170/2 RTP/AVP 31”.

The fourth AT command 418 requests from the mobile termination part MT1 302 to modify the ongoing MMTel call identified by “1234”. The modification adds video with properties indicated by the provided SDP media level section. Since SDP is being provided, the mobile termination part MT1 302 may be instructed not to encode and decode the video media data. Instead, the video RTP packets may be forwarded to the terminal equipment part TE1 304. The terminal equipment part TE1 304 itself may be taking care of encoding and decoding of the video media data.

FIG. 5 shows a message flow diagram 500 in accordance with various aspects of this disclosure. The message flow diagram 500 illustrates receiving an incoming MMTel call. For this example, the situation of the example as shown in FIG. 4 is assumed after the initialization of the first user U1's mobile phone T1 300.

Furthermore, it is assumed that the first user U1's friend, e.g. the second user U2 calls the first user U1 via the IMS multimedia communication service, e.g. MMTel (see block 502 in FIG. 5). The mobile termination part MT1 302 may receive a corresponding SIP INVITE request message from the second user U2's mobile phone T2. The SIP INVITE request message may include SDP for audio and video media data.

Then, the mobile termination part MT1 302 may generate and send the following AT command as a third AT command 504 to the terminal equipment part TE1 304:

-   -   +CINU=“sip:bob@biloxy.com”, “3gpp-service.ims.icsi.mmtel”, 5678,         “voice,high-quality”, “m=video 49170/2 RTP/AVP 31”.

The third AT command 504 may inform the terminal equipment part TE1 304 that an MMTel communication call has been received from the indicated SIP address with high quality voice media data and with video media data. Since default media for MMTel communication services have been set to “voice,high-quality”, the mobile termination part MT1 302 does not indicate SDP audio media data for encoding and decoding outside of the mobile termination part MT1 302, but high quality voice media data to be encoded and decoded by the mobile termination part MT1 302.

Furthermore, the terminal equipment part TE1 304 may indicate the incoming call to the first user U1. The first user U1 does not want to allow the second user U2 to see him via video media data. Therefore, the terminal equipment part TE1 304 may generate and send back the following AT command as a fourth AT command 506 to the mobile termination part MT1 302:

-   -   +CDU=2,“sip:bob@biloxy.com”, “3gpp-service.ims.icsi.mmtel”,         5678, “voice,high-quality”, “m=video 49170/2 RTP/AVP         31<CR><LF>a=recvonly”.

The fourth AT command 506 may instructs the mobile termination part MT1 302 to accept the communication call but without sending video media data to the second user U2's mobile phone.

In the following, a general description of AT command extensions and AT commands introduced in accordance with various aspects of this disclosure will be provided.

A conventional AT command for dialing URIs has the following structure:

Dial URI+CDU

TABLE 1 +CDU action command syntax Command Possible response(s) +CDU=<action>[,<URI>] [+CDUT: <URI_scheme> [<CR><LF>+CDUT: <URI_scheme>][...]] +CDU=?

Description: Execution command can be used to dial a URI or query the supported URI types.

Editor's note: It is FFS how the type of requested IMS service (e.g. voice or MMTel) and corresponding SDP are indicated.

Defined values

<action>: Integer type

-   -   0 Query supported URI types. Execution command +CDU=0 returns a         line of intermediate result +CDUT: <URI_scheme> for every         supported <URI_scheme>.     -   1 Dial <URI>.

<URI>: string type URI including the prefix specifying the URI type; the URI may include URI parameters; the used character set should be the one selected with Select TE Character Set +CSCS.

<URI_scheme>: string type. Parameter identifies supported URI scheme.

“sip” Internet Assigned Number Authority (IANA) registry as per RFC 3969 [ccc], used with Session Initiation Protocol (SIP), see RFC 3261 [aaa].

“tel” Internet Assigned Number Authority (IANA) registry as per RFC 5341 [ddd], used with Session Initiation Protocol (SIP), see RFC 3966 [bbb].

Editor's note: The list of URI-schemes is not complete.

Extended AT command for dialing URIs according to various aspects of this disclosure:

+CDU=<action>[,<URI>[,<service>,<call-id>[,<media>][,<media>][ . . . ]]]

<service>: String type. Identifies an IMS service. If the parameter starts with “3gpp-service.ims.icsi.” then the parameter is the ICSI value specified by 3GPP for an IMS service. If the parameter does not start with “3gpp-service.ims.icsi.” then the parameter indicates a service for which 3GPP has not specified an ICSI value. For example, the VoLTE (Voice over Long Term Evolution) service might be indicated by the string “volte” and IMS messaging might be indicated by the string “messaging”.

<call-id>: String type. Identifies an ongoing call. The call-id is to be ignored with the <action> value 1. The call-id is to be taken into account only with the <action> value 2 for modifying an ongoing call.

<media>: String type. Defines media. If the parameter starts with “m=” then the string is the media level section of an SDP description and the MT is requested to set up the call with media encoding and decoding to be done outside the MT. If the parameter does not start with “m=” then the string indicates the media type and possibly quality and the MT is requested to set up the call with media encoding and decoding to be done by the MT.

Extended AT command response to +CDU=0 according to various aspects of this disclosure:

[+CDUT:<URI_scheme>[,<service>][,<service>][ . . . ][<CR><LF>+CDUT:<URI_scheme>[,<service>][,<service>][ . . . ]][ . . . ]]

<service>: Specifies which services are supported by the MT for the URI scheme <URI_scheme>.

New AT command response to +CDU=1 according to various aspects of this disclosure:

+CDUC: :<URI_scheme>,<service>,<call-id>[,<media>][,<media>][ . . . ]

<call-id>: String type. Identifies the call having been set up by the MT. The call-id may be used for call identification when modifying the call later.

<media>: Specifies the media of the call having been set up.

New value for <action> for +CDU according to various aspects of this disclosure:

2: Modify an existing call. The call to be modified must be identified by the call-id received in the +CDUC response to the +CDU request for setting up the call.

New AT command for incoming call notification according to various aspects of this disclosure:

+CINU=<URI scheme>,<service>,<call-id>[,<media>][,<media>][ . . . ]

<call-id>: Identifies the incoming call. The call-id may be used for call identification when modifying the call.

<media>: Specifies the media of the incoming call.

New AT command for configuring default media for a particular service according to various aspects of this disclosure:

+CSMCU=<service>[,<media>][,<media>][ . . . ]

<service>: Service for which to configure media.

<media>: Specifies the default media for the service <service>. If no media are being specified by +CDU then the default media are to be used. The default media may also be used by the MT for incoming calls.

Some alternatives and/or extensions of the above described aspects will be described in the following.

Instead of ICSI values also other string type values like “messaging” might be used for service identification in AT commands (e.g. for the IMS messaging service).

When negotiating media with the network via SIP the MT may indicate so called IMS Application Reference Identifiers in accordance with the IMS service application on the MT.

If +CDU=1 is being used without indicating any service, then a default service may be initiated, e.g. a voice call may be set up. The default service may be specified by sending +CSMC with service indication but without media indication.

Call-ids may be based on the time when a call has been requested or received. For example call-ids may be chosen to be the time of call request or reception.

If call-ids are given by the time of call request or reception then call-ids may not be indicated to the TE in +CINU commands or +CDUC responses. In this case, TEs may determine relevant call-ids from the MTs internal clock (which can be queried by +CCLK commands according to the 3GPP technical specification TS 27.007, “AT command set for User Equipment (UE)”, V11.1.0, 12/2011).

AT commands for phonebook dialing may be extended in a similar way as the direct dialing command+CDU as described above.

When requesting a call by sending a +CDU=1 command to the MT a call-id other than 0 may be specified. The specified call-id may be used as a proposed call-id for the requested call.

Other AT command names than the names used above may be used for the new AT commands introduced by the above described aspects.

Call-ids may not be unique over all calls processed by the MT, but instead may be only unique over all calls with the same URI and service parameters.

Call-ids may be unique over all calls processed by the MT. In this case, an ongoing call may be modified by a special AT command whereby the call may be identified solely by its call-id and not by its URI and service identifier.

Various aspects of the disclosure may enable control of a multitude of Internet Protocol Multimedia Subsystem (IMS) services provided by mobile terminations.

One or more of the following may be provided by various aspects of this disclosure:

-   -   It may be possible to specify the type of IMS service to be         controlled.     -   It may be possible to specify media to be used by IMS services.     -   It may be possible to specify media quality for IMS services.     -   It may be possible to specify whether media encoding and         decoding is to be done by one or more Mobile Terminations (MT)         or by one or more Terminal Equipments (TE).     -   It may be possible to find out which IMS services are supported         by MTs.     -   It may be possible to configure media support for incoming         communication calls.     -   It may be possible to modify ongoing communication connections         or communication calls.     -   It may be possible to control multiple instances of a particular         IMS service.     -   It may be possible to control the media of an incoming         communication call.     -   The syntax of control commands may be linear and simple.

FIG. 6 shows a flow diagram illustrating a method 600 for operating a communication device in accordance with various aspects of this disclosure. The method 600 may include, in 602, generating a message in accordance with a command set for using a communication service provided by a communication session setup protocol; and, in 604, controlling a modem circuit in accordance with the generated message; wherein the generating the message includes inserting a command to at least one of control or establish an Internet Protocol Multimedia Subsystem service.

The generating the message may include inserting an identifier to identify the Internet Protocol Multimedia Subsystem service or to identify an instance of the Internet Protocol Multimedia Subsystem service. Furthermore, the generating the message may include inserting information specifying whether media data is to be at least one of encoded and decoded by an application processor of the communication device. The generating the message may include inserting at least one of the following: information specifying a Uniform Resource Identifier; information specifying a modification of an established communication connection; information specifying a configuration of a communication service; or information controlling an incoming call. The generating the message may include inserting information specifying a Uniform Resource Identifier and at least one of a communication service parameter or a communication call identifier. The communication service parameter may include an Internet Protocol Multimedia Subsystem Communication Service Identifier (ICSI). The generating the message may include inserting a communication service parameter and a media data parameter to specify media data and media data properties for the Internet Protocol Multimedia Subsystem service. The media data parameter may include Session Description Protocol data. The generating the message may include generating the message in accordance with a modem command set. The generating the message may include generating the message in accordance with the AT command set. Moreover, the method may further include providing the communication service by the communication session setup protocol, e.g. the Session Initiation Protocol.

FIG. 7 shows a flow diagram illustrating a method 700 for operating a communication device in accordance with various aspects of this disclosure. The method 700 may include, in 702, generating a message in accordance with a command set provided for the communication within the communication device and to control a communication service provided for communication with another communication device, and, in 704, controlling a modem circuit of the communication device in accordance with the generated message, wherein the generating the message comprises inserting a command to at least one of control or establish an Internet Protocol based communication service.

The generating the message may include inserting a command to at least one of control or establish an Internet Protocol based multimedia communication service. The generating the message may include inserting an identifier to identify the Internet Protocol based communication service or to identify an instance of the Internet Protocol based communication service. The generating the message may include inserting an information specifying whether media data is to be at least one of encoded or decoded by an application processor of the communication device. The generating the message may include inserting at least one of the following: information specifying a Uniform Resource Identifier; information specifying a modification of an established communication connection; information specifying a configuration of a communication service; or information controlling an incoming call. The generating the message may include inserting an information specifying a Uniform Resource Identifier and at least one of a communication service parameter or a communication call identifier. The communication service parameter may include an Internet Protocol Multimedia Subsystem Communication Service Identifier (ICSI). The generating the message may include inserting a communication service parameter and a media data parameter to specify media data and media data properties for the Internet Protocol based communication service. The media data parameter may include Session Description Protocol data. The generating the message may include generating the message in accordance with a modem command set. The generating the message may include generating the message in accordance with the AT command set. The method may further include providing the communication service including by the communication session setup protocol, e.g. the Session Initiation Protocol.

While the invention has been particularly shown and described with reference to specific embodiments, it should be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is thus indicated by the appended claims and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced. 

What is claimed is:
 1. A Terminal Equipment (TE) implemented in a mobile device to provide application and user interface functionality, the TE comprising: application processor circuitry to generate an attention (AT) command to initiate modification of media to be used during an ongoing multimedia call, the AT command including one or more fields specifying a plurality of media data parameters for the modification of the media during the ongoing multimedia call and further indicating whether the media is to be encoded and decoded outside of a Mobile Termination (MT) or inside of the MT; and interface circuitry coupled with the application processor circuitry, the interface circuitry to transfer the AT command to the MT through a Terminal Adaptor (TA) via a link between the TE and the TA, and wherein the AT command is to cause the MT to trigger a Session Initiation Protocol (SIP) media negotiation to modify the media to be used during the ongoing multimedia call based at least on the one or more fields.
 2. The TE of claim 1, wherein the AT command is a first AT command, and wherein: the application processor circuitry is to generate a second AT command, wherein the second AT command is to indicate acceptance, rejection, or modification of media to be used for an incoming multimedia call; and the interface circuitry is to transfer the second AT command to the MT through the TA via the link between the TE and the TA, and wherein the second AT command is to cause the MT to trigger an SIP media negotiation to accept, reject, or modify the media to be used for the incoming multimedia call.
 3. The TE of claim 1, wherein the AT command is a first AT command, and wherein: the application processor circuitry is to generate a third AT command, wherein the third AT command is to indicate acceptance, rejection, or modification of changes to media to be used for an incoming multimedia call; and the interface circuitry is to transfer the generated third AT command to the MT through the TA via the link between the TE and the TA, and wherein the third AT command is to cause the MT to trigger an SIP media negotiation to accept, reject, or modify the changes to the media to be used for the incoming multimedia call.
 4. The TE of claim 1, wherein the AT command is a first AT command, and wherein: the application processor circuitry is to generate a fourth AT command, wherein the fourth AT command is to query for supported uniform resource identifier (URI) types; and the interface circuitry is to: transfer the fourth AT command to the MT through the TA via the link between the TE and the TA, and receive an AT command response from the MT via the TA in response to the fourth AT command, wherein the AT command response is to include a list of supported URI types.
 5. The TE of claim 4, wherein the AT command response is to include a parameter for each supported URI type.
 6. The TE of claim 4, wherein the AT command response is a first AT command response, and wherein: the application processor circuitry is to generate a fifth AT command, wherein the fifth AT command is to instruct the MT to dial a selected one of the supported URI types; and the interface circuitry is to: transfer the fifth AT command to the MT through the TA via the link between the TE and the TA, and receive a second AT command response from the MT via the TA in response to the fifth AT command, wherein the second AT command response is to include a call identifier of the dialed URI.
 7. The TE of claim 6, wherein the fifth AT command is further to indicate a media type to be used for a call and to indicate whether the media type is to be encoded and decoded outside of the MT or inside of the MT.
 8. The TE of claim 7, wherein the application processor circuitry is to encode and decode media obtained during a communication session when the media has a media type that is same as the indicated media type and when the fifth AT command indicates that the indicated media type is to be encoded and decoded outside of the MT.
 9. The TE of claim 7, wherein the application processor circuitry is to not encode and not decode media obtained during a communication session when the media has a media type that is same as the indicated media type and when the fifth AT command indicates that the indicated media type is to be encoded and decoded inside of the MT.
 10. The TE of claim 1, wherein the mobile device is one of an electronic device with Internet communication capability, a personal computer, a laptop, a workstation, a netbook computer, a smartphone or a tablet computer.
 11. A Mobile Termination component (MT) implemented in a mobile device to provide modem functionality, the MT comprising: interface circuitry to receive an attention (AT) command from Terminal Equipment (TE) through a Terminal Adaptor (TA) via a link between the MT and the TA, wherein the AT command is indicate modification of media to be used during an ongoing multimedia call, the AT command including a field one or more fields specifying a plurality of media data parameters for the modification of the media during the ongoing multimedia call and further indicating whether the media is to be encoded and decoded outside of the MT or inside of the MT; and modem circuitry coupled with interface circuitry, the modem circuitry to initiate media negotiation via Session Initiation Protocol (SIP) to modify the media to be used during the ongoing multimedia call based at least on the one or more fields.
 12. The MT of claim 11, wherein the AT command is a first AT command, and wherein: the interface circuitry is to receive a second AT command from the TE through the TA, wherein the second AT command is to indicate acceptance, rejection, or modification of media to be used for an incoming multimedia call; and the modem circuitry is to initiate, in response to the second AT command, an SIP media negotiation to accept, reject, or modify the media to be used for the incoming multimedia call.
 13. The MT of claim 11, wherein the AT command is a first AT command, and wherein: the interface circuitry is to receive a third AT command from the TE through the TA, wherein the third AT command is to indicate acceptance, rejection, or modification of changes to media to be used for an incoming multimedia call; and the modem circuitry is to initiate in response to the third AT command, an SIP media negotiation to accept, reject, or modify the changes to the media to be used for the incoming multimedia call.
 14. The MT of claim 11, wherein the AT command is a first AT command, and wherein: the interface circuitry is to receive fourth AT command from the TE through the TA, wherein the fourth AT command is to indicate a query for supported uniform resource identifier (URI) types; and the modem circuitry is to: identify one or more supported URI types in response to the fourth AT command, and generate an AT command response to be transferred to the TE via the TA, wherein the AT command response is to include a list of the supported URI types.
 15. The MT of claim 14, wherein the modem circuitry is to generate the AT command response to include a parameter for each supported URI type.
 16. The MT of claim 14, wherein the AT command response is a first AT command response, and wherein: the interface circuitry is to receive fifth AT command from the TE through the TA, wherein the fifth AT command is indicate a selected one of the supported URI types to be dialed; and the modem circuitry is to: dial the indicated URI in response to the fifth AT command, and generate a second AT command response to be transferred to the TE via the TA, wherein the second AT command response is to include a call identifier of the dialed URI.
 17. The MT of claim 16, wherein the fifth AT command is further to indicate a media type to be used for a call and to indicate whether the media type is to be encoded and decoded outside of the MT or inside of the MT.
 18. The MT of claim 17, wherein the modem circuitry is to encode and decode media obtained during a communication session when the media has a media type that is same as the indicated media type and when the fifth AT command indicates that the indicated media type is to be encoded and decoded inside of the MT.
 19. The MT of claim 17, wherein the modem circuitry is to not encode and not decode media obtained during a communication session when the media has a media type that is same as the indicated media type and when the fifth AT command indicates that the indicated media type is to be encoded and decoded outside of the MT.
 20. The MT of claim 11, wherein the mobile device is one of an electronic device with Internet communication capability, a personal computer, a laptop, a workstation, a netbook computer, a smartphone or a tablet computer.
 21. The mobile device of claim 11, wherein: the TE is to generate a second AT command, and transfer the second AT command to the MT through the TA, wherein the second AT command is to indicate acceptance, rejection, or modification of media to be used for an incoming multimedia call or the second AT command is to indicate acceptance, rejection, or modification of changes to the media to be used for the incoming multimedia call the MT is to receive a second AT command from the TE through the TA, and initiate, in response to the second AT command, an SIP media negotiation to accept, reject, or modify the media to be used for the incoming multimedia call or accept, reject, or modify the changes to the media to be used for the incoming multimedia call.
 22. The mobile device of claim 11, wherein: the TE is to generate a third AT command, and transfer the third AT command to the MT through the TA, wherein the third AT command is to indicate a query for supported uniform resource identifier (URI) types; and the MT is to receive the third AT command from the TE through the TA, identify one or more supported URI types in response to the third AT command, and generate an AT command response to be transferred to the TE via the TA, wherein the AT command response is to include a list of the supported URI types.
 23. The mobile device of claim 22, wherein the AT command response is a first AT command response, and wherein: the TE is to generate a fourth AT command, and transfer the fourth AT command to the MT through the TA, wherein the fourth AT command is to indicate a selected one of the supported URI types to be dialed, a media type to be used for a call, and whether the media type is to be encoded and decoded outside of the MT or encoded and decoded inside of the MT; and the MT is to receive fourth AT command from the TE through the TA, dial the indicated URI in response to the fourth AT command, and generate a second AT command response to be transferred to the TE via the TA, wherein the second AT command response is to include a call identifier of the dialed URI.
 24. The mobile device of claim 23, wherein the MT is to: encode and decode media obtained during a communication session when the media has a media type that is same as the indicated media type and when the fourth AT command indicates that the indicated media type is to be encoded and decoded inside of the MT; and not encode and not decode media obtained during a communication session when the media has a media type that is same as the indicated media type and when the fourth AT command indicates that the indicated media type is to be encoded and decoded outside of the MT.
 25. A mobile device capable of wireless communication, the mobile device comprising: a Terminal Equipment (TE) to provide application and user interface functionality; a Mobile Termination entity (MT) to provide modem functionality; and a Terminal Adaptor (TA) coupled with the TE and the MT, wherein the TA is to provide an interface for attention (AT) commands to be provided from the TE to the MT and for AT command responses to be provided from the MT to the TE, wherein the TE is to generate a first AT command to initiate modification of media to be used during an ongoing multimedia call, and transfer the AT command to the MT through the TA, wherein the AT command is to cause the MT to trigger a Session Initiation Protocol (SIP) media negotiation to modify the media to be used during the ongoing multimedia call, the first AT command including one or more fields specifying a plurality of media data parameters for the modification of the media during the ongoing multimedia call and further indicating whether the media is to be encoded and decoded outside of the MT or inside of the MT, and wherein the MT is to receive the first AT command from the TE through the TA, and initiate the SIP media negotiation to modify the media to be used during the ongoing multimedia call based at least on the one or more fields. 